The pulsing I/O pattern you're seeing is characteristic of applications where many/most filesystem writes are asynchronous - this is because the filesystem will batch up the writes so it can do many at the same time to avoid doing one disk seek per write. The most common example I can think of is a database writing data - except for the database's write-ahead log, everything is typically written asynchronously; other transactional access patterns tend to be similar because they have a write-ahead log to recover if some async writes are lost in a crash. This is a common access pattern and isn't necessarily a problem, but it can become a problem when your disk is highly fragmented and the filesystem can't write everything out in batches (causing many seeks, just like it was trying to avoid).
The DTrace/iotop error you're seeing means there's either a bug in the DTrace implementation itself or in the
iotop DTrace script. Looking at
iotop's source code (in
/usr/bin/iotop on OS X), there are three
io:::start callbacks which could be the culprit. It's possible that there's some sort of null pointer access in the script for some types of I/O, but it doesn't look likely based on the script and the arguments
io:::start probes take. Perhaps this is best resolved with a bug report to Apple.